Detecting underwater implosions or collapses can be challenging due to the immense pressures and depths involved. While search buoys may not have detected such sounds, there are alternative methods and technologies that can be used for more effective detection. Here are a few examples:
Hydrophones: Hydrophones are underwater microphones specifically designed to detect and capture sound in water. They can be deployed at various depths and locations to monitor underwater acoustic signals. Hydrophone arrays, consisting of multiple hydrophones placed strategically, can provide better localization and tracking of implosions.
Sonar Systems: Sonar (Sound Navigation and Ranging) technology uses sound waves to detect objects underwater. Active sonar systems emit sound waves and measure their reflections to identify underwater objects or events. Passive sonar systems listen for sounds generated by implosions or collapses. Both active and passive sonar systems can be utilized to detect and locate underwater implosions.
Underwater Seismic Sensors: Seismic sensors can detect underwater disturbances and vibrations. They are sensitive to seismic waves generated by underwater events, including implosions. Deploying a network of underwater seismic sensors can provide valuable data on the occurrence and location of collapses.
Autonomous Underwater Vehicles (AUVs): AUVs equipped with specialized sensors can be deployed to survey underwater areas and detect implosions. These vehicles can be programmed to follow specific patterns and collect data on underwater sounds or vibrations.
Underwater Observatory Systems: Establishing underwater observatories equipped with a combination of hydrophones, sonar, and other sensors can enable continuous monitoring of underwater environments. These systems can capture and analyze acoustic signals in real-time, providing early detection and warning of implosions or collapses.
It's important to note that detecting underwater implosions can be challenging due to factors such as the depth and remoteness of the location, background noise, and the characteristics of the event itself. A combination of different detection methods, careful placement of sensors, and continuous monitoring can improve the effectiveness of detecting and analyzing underwater collapses or implosions.